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byX. Liang, J. Potter , S. Kumar, Y. Zou, R. Quintanilla, M. Sridharan, J. Carte, N. Roark, S. Ranganathan, N. Ravinder, and J. Chesnut; Thermo Fisher Scientific, Carlsbad, CA, USA - 09/22/2015
CRISPR-Cas9 systems provide a platform for high efficiency genome editing that can lead to innovative applications in cell engineering. However, the delivery of Cas9 and synthesis of guide RNA (gRNA) remains two steps that limit overall efficiency and general ease of use. Here we describe novel methods for rapid synthesis of gRNA and for delivery of Cas9 protein/gRNA complexes into a variety of cells through liposome-mediated transfection or electroporation, which streamlines cell engineering workflow from gRNA design to analysis of edited cells in as little as four days and results in highly efficient genome editing in hard-to-transfect cells. The reagent preparation and delivery to cells requires no plasmid manipulation so is amenable for high throughput, multiplexed genome-wide cell engineering.
Figure 1. Engineering workflow.
Day 1: design/order CRISPR targets
Day 2: synthesis of gRNA and cell transfection
Day 3-4: genome cleavage assays
Figure 2. gRNA synthesis.
(A) Oligo pool
(B) Synthesis of gRNA template. Lane 1, control. Lanes 2,3 PCR assembly.
(C) In vitro transcription
Figure 3. Lipid-mediated Transfection
(A) Three loci were edited via Cas9 plasmid DNA, mRNA or protein transfection of HEK293FT cells using RNAiMAX. % of Indel was determined. Time course of genome editing (B) and protein expression (C). (D) Off-target mutation of VEGFA T3 target.
Figure 4. Electroporation using Neon™ Transfection System.
(A) Cas9 DNA, mRNA or protein were used to electroporate Jurkat T cells using the Neon 24 optimized protocol, which varies in pulse voltage, pulse width and number of pulses. % of locus-specific cleavage was measured. (B) Dose-dependent effect of genome editing.
Figure 5. Multiplex with cas9 RNPs and 2-3 gRNAs in Jurkat T cells.
Multiplexing assays in Jurkat T cells via cotransfection. Each locus was PCR-amplified from each clonal cell line and sequenced. +/+ indicates % all alleles wt, -/- indicates % all alleles indel, +/- indicates % mixed alleles.
Table 1. Comparison of plasmid DNA, mRNA and Cas9.
For Research Use Only. Not for use in diagnostic procedures.